Multilevel Information Encryption Based on Thermochromic Perovskite Microcapsules via Orthogonal Photic and Thermal Stimuli Responses

Xinru Yuan; Jia-Xin Wang; Yunlong Li; Hao Huang; Jiahong Wang; Tongyu Shi; Yuhao Deng; Qiyu Yuan; Rui He; Paul K. Chu; Xue-Feng Yu

doi:10.1021/acsnano.4c00938

Multilevel Information Encryption Based on Thermochromic Perovskite Microcapsules via Orthogonal Photic and Thermal Stimuli Responses

Xinru Yuan
, Jia-Xin Wang
, Yunlong Li
, Hao Huang
, Jiahong Wang
, Tongyu Shi
, Yuhao Deng
, Qiyu Yuan
, Rui He^*
, Paul K. Chu
, Xue-Feng Yu^*

^*Corresponding author for this work

Research output: Journal Publications and Reviews › RGC 21 - Publication in refereed journal › peer-review

29 Citations (Scopus)

Abstract

Increasing modal variations of stimulus-responsive materials ensure the high capacity and confidentiality of information storage and encryption systems that are crucial to information security. Herein, thermochromic perovskite microcapsules (TPMs) with dual-variable and quadruple-modal reversible properties are designed and prepared on the original oil-in-fluorine (O/F) emulsion system. The TPMs respond to the orthogonal variations of external UV and thermal stimuli in four reversible switchable modes and exhibit excellent thermal, air, and water stability due to the protection of perovskites by the core-shell structure. Benefiting from the high-density information storage TPMs, multiple information encryptions and decryptions are demonstrated. Moreover, a set of devices are assembled for a multilevel information encryption system. By taking advantage of TPMs as a “private key” for decryption, the signal can be identified as the corresponding binary ASCII code and converted to the real message. The results demonstrate a breakthrough in high-density information storage materials as well as a multilevel information encryption system based on switchable quadruple-modal TPMs. © 2024 American Chemical Society.

Original language	English
Pages (from-to)	10874-10884
Journal	ACS Nano
Volume	18
Issue number	16
Online published	13 Apr 2024
DOIs	https://doi.org/10.1021/acsnano.4c00938
Publication status	Published - 23 Apr 2024

Funding

This work was supported by the National Key R&D Program of China (2023YFA0915600), The National Natural Science Foundation of China (no. 22201296), Youth Innovation Promotion Association Chinese Academy of Sciences (2020354), Shenzhen Science and Technology Program Grant (no. ZDSYS20220527171406014), Natural Science Foundation of Guangdong Province (no. 2022A1515011959), City University of Hong Kong Donation Research Grants (DON-RMG Nos. 9229021 and 9220061), as well as City University of Hong Kong Strategic Research Grant (SRG 7005505).

Research Keywords

high security
information encryptions
perovskites
reversible responses
stimuli responses
thermochromic microcapsules

RGC Funding Information

RGC-funded

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10.1021/acsnano.4c00938

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Cite this

@article{d04f9b0d992d4ff1a361f04cce9cfc4f,

title = "Multilevel Information Encryption Based on Thermochromic Perovskite Microcapsules via Orthogonal Photic and Thermal Stimuli Responses",

abstract = "Increasing modal variations of stimulus-responsive materials ensure the high capacity and confidentiality of information storage and encryption systems that are crucial to information security. Herein, thermochromic perovskite microcapsules (TPMs) with dual-variable and quadruple-modal reversible properties are designed and prepared on the original oil-in-fluorine (O/F) emulsion system. The TPMs respond to the orthogonal variations of external UV and thermal stimuli in four reversible switchable modes and exhibit excellent thermal, air, and water stability due to the protection of perovskites by the core-shell structure. Benefiting from the high-density information storage TPMs, multiple information encryptions and decryptions are demonstrated. Moreover, a set of devices are assembled for a multilevel information encryption system. By taking advantage of TPMs as a “private key” for decryption, the signal can be identified as the corresponding binary ASCII code and converted to the real message. The results demonstrate a breakthrough in high-density information storage materials as well as a multilevel information encryption system based on switchable quadruple-modal TPMs. {\textcopyright} 2024 American Chemical Society.",

keywords = "high security, information encryptions, perovskites, reversible responses, stimuli responses, thermochromic microcapsules",

author = "Xinru Yuan and Jia-Xin Wang and Yunlong Li and Hao Huang and Jiahong Wang and Tongyu Shi and Yuhao Deng and Qiyu Yuan and Rui He and Chu, \{Paul K.\} and Xue-Feng Yu",

year = "2024",

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doi = "10.1021/acsnano.4c00938",

language = "English",

volume = "18",

pages = "10874--10884",

journal = "ACS Nano",

issn = "1936-0851",

publisher = "American Chemical Society",

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TY - JOUR

T1 - Multilevel Information Encryption Based on Thermochromic Perovskite Microcapsules via Orthogonal Photic and Thermal Stimuli Responses

AU - Yuan, Xinru

AU - Wang, Jia-Xin

AU - Li, Yunlong

AU - Huang, Hao

AU - Wang, Jiahong

AU - Shi, Tongyu

AU - Deng, Yuhao

AU - Yuan, Qiyu

AU - He, Rui

AU - Chu, Paul K.

AU - Yu, Xue-Feng

PY - 2024/4/23

Y1 - 2024/4/23

N2 - Increasing modal variations of stimulus-responsive materials ensure the high capacity and confidentiality of information storage and encryption systems that are crucial to information security. Herein, thermochromic perovskite microcapsules (TPMs) with dual-variable and quadruple-modal reversible properties are designed and prepared on the original oil-in-fluorine (O/F) emulsion system. The TPMs respond to the orthogonal variations of external UV and thermal stimuli in four reversible switchable modes and exhibit excellent thermal, air, and water stability due to the protection of perovskites by the core-shell structure. Benefiting from the high-density information storage TPMs, multiple information encryptions and decryptions are demonstrated. Moreover, a set of devices are assembled for a multilevel information encryption system. By taking advantage of TPMs as a “private key” for decryption, the signal can be identified as the corresponding binary ASCII code and converted to the real message. The results demonstrate a breakthrough in high-density information storage materials as well as a multilevel information encryption system based on switchable quadruple-modal TPMs. © 2024 American Chemical Society.

AB - Increasing modal variations of stimulus-responsive materials ensure the high capacity and confidentiality of information storage and encryption systems that are crucial to information security. Herein, thermochromic perovskite microcapsules (TPMs) with dual-variable and quadruple-modal reversible properties are designed and prepared on the original oil-in-fluorine (O/F) emulsion system. The TPMs respond to the orthogonal variations of external UV and thermal stimuli in four reversible switchable modes and exhibit excellent thermal, air, and water stability due to the protection of perovskites by the core-shell structure. Benefiting from the high-density information storage TPMs, multiple information encryptions and decryptions are demonstrated. Moreover, a set of devices are assembled for a multilevel information encryption system. By taking advantage of TPMs as a “private key” for decryption, the signal can be identified as the corresponding binary ASCII code and converted to the real message. The results demonstrate a breakthrough in high-density information storage materials as well as a multilevel information encryption system based on switchable quadruple-modal TPMs. © 2024 American Chemical Society.

KW - high security

KW - information encryptions

KW - perovskites

KW - reversible responses

KW - stimuli responses

KW - thermochromic microcapsules

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UR - https://www.scopus.com/record/pubmetrics.uri?eid=2-s2.0-85190899428&origin=recordpage

U2 - 10.1021/acsnano.4c00938

DO - 10.1021/acsnano.4c00938

M3 - RGC 21 - Publication in refereed journal

C2 - 38613774

SN - 1936-0851

VL - 18

SP - 10874

EP - 10884

JO - ACS Nano

JF - ACS Nano

IS - 16

ER -

Multilevel Information Encryption Based on Thermochromic Perovskite Microcapsules via Orthogonal Photic and Thermal Stimuli Responses

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DON_RMG: Fabrication, Characterization, and Properties of Functional Materials - RMGS

DON: Surface Modification and Fabrication of Advanced Materials

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Multilevel Information Encryption Based on Thermochromic Perovskite Microcapsules via Orthogonal Photic and Thermal Stimuli Responses

Abstract

Funding

Research Keywords

RGC Funding Information

Access Output

Other Access Options

Permanent Link

Other Files and Links

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Projects

DON_RMG: Fabrication, Characterization, and Properties of Functional Materials - RMGS

DON: Surface Modification and Fabrication of Advanced Materials

Cite this